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[linux-2.6.9-moxart.git] / drivers / oprofile / cpu_buffer.c

/**
 * @file cpu_buffer.c
 *
 * @remark Copyright 2002 OProfile authors
 * @remark Read the file COPYING
 *
 * @author John Levon <levon@movementarian.org>
 *
 * Each CPU has a local buffer that stores PC value/event
 * pairs. We also log context switches when we notice them.
 * Eventually each CPU's buffer is processed into the global
 * event buffer by sync_buffer().
 *
 * We use a local buffer for two reasons: an NMI or similar
 * interrupt cannot synchronise, and high sampling rates
 * would lead to catastrophic global synchronisation if
 * a global buffer was used.
 */

#include <linux/sched.h>
#include <linux/vmalloc.h>
#include <linux/errno.h>
 
#include "cpu_buffer.h"
#include "buffer_sync.h"
#include "oprof.h"

struct oprofile_cpu_buffer cpu_buffer[NR_CPUS] __cacheline_aligned;

static void wq_sync_buffer(void *);

#define DEFAULT_TIMER_EXPIRE (HZ / 10)
int work_enabled;

static void __free_cpu_buffers(int num)
{
        int i;
 
        for_each_online_cpu(i) {
                if (cpu_buffer[i].buffer)
                        vfree(cpu_buffer[i].buffer);
        }
}
 
 
int alloc_cpu_buffers(void)
{
        int i;
 
        unsigned long buffer_size = fs_cpu_buffer_size;
 
        for_each_online_cpu(i) {
                struct oprofile_cpu_buffer * b = &cpu_buffer[i];
 
                b->buffer = vmalloc(sizeof(struct op_sample) * buffer_size);
                if (!b->buffer)
                        goto fail;
 
                b->last_task = NULL;
                b->last_is_kernel = -1;
                b->buffer_size = buffer_size;
                b->tail_pos = 0;
                b->head_pos = 0;
                b->sample_received = 0;
                b->sample_lost_overflow = 0;
                b->cpu = i;
                INIT_WORK(&b->work, wq_sync_buffer, b);
        }
        return 0;

fail:
        __free_cpu_buffers(i);
        return -ENOMEM;
}
 

void free_cpu_buffers(void)
{
        __free_cpu_buffers(NR_CPUS);
}


void start_cpu_work(void)
{
        int i;

        work_enabled = 1;

        for_each_online_cpu(i) {
                struct oprofile_cpu_buffer * b = &cpu_buffer[i];

                /*
                 * Spread the work by 1 jiffy per cpu so they dont all
                 * fire at once.
                 */
                schedule_delayed_work_on(i, &b->work, DEFAULT_TIMER_EXPIRE + i);
        }
}


void end_cpu_work(void)
{
        int i;

        work_enabled = 0;

        for_each_online_cpu(i) {
                struct oprofile_cpu_buffer * b = &cpu_buffer[i];

                cancel_delayed_work(&b->work);
        }

        flush_scheduled_work();
}


/* compute number of available slots in cpu_buffer queue */
static unsigned long nr_available_slots(struct oprofile_cpu_buffer const * b)
{
        unsigned long head = b->head_pos;
        unsigned long tail = b->tail_pos;

        if (tail > head)
                return (tail - head) - 1;

        return tail + (b->buffer_size - head) - 1;
}


static void increment_head(struct oprofile_cpu_buffer * b)
{
        unsigned long new_head = b->head_pos + 1;

        /* Ensure anything written to the slot before we
         * increment is visible */
        wmb();

        if (new_head < (b->buffer_size))
                b->head_pos = new_head;
        else
                b->head_pos = 0;
}


/* This must be safe from any context. It's safe writing here
 * because of the head/tail separation of the writer and reader
 * of the CPU buffer.
 *
 * is_kernel is needed because on some architectures you cannot
 * tell if you are in kernel or user space simply by looking at
 * eip. We tag this in the buffer by generating kernel enter/exit
 * events whenever is_kernel changes
 */
void oprofile_add_sample(unsigned long eip, unsigned int is_kernel, 
        unsigned long event, int cpu)
{
        struct oprofile_cpu_buffer * cpu_buf = &cpu_buffer[cpu];
        struct task_struct * task;

        is_kernel = !!is_kernel;

        cpu_buf->sample_received++;
 

        if (nr_available_slots(cpu_buf) < 3) {
                cpu_buf->sample_lost_overflow++;
                return;
        }

        task = current;

        /* notice a switch from user->kernel or vice versa */
        if (cpu_buf->last_is_kernel != is_kernel) {
                cpu_buf->last_is_kernel = is_kernel;
                cpu_buf->buffer[cpu_buf->head_pos].eip = ~0UL;
                cpu_buf->buffer[cpu_buf->head_pos].event = is_kernel;
                increment_head(cpu_buf);
        }

        /* notice a task switch */
        if (cpu_buf->last_task != task) {
                cpu_buf->last_task = task;
                cpu_buf->buffer[cpu_buf->head_pos].eip = ~0UL;
                cpu_buf->buffer[cpu_buf->head_pos].event = (unsigned long)task;
                increment_head(cpu_buf);
        }
 
        cpu_buf->buffer[cpu_buf->head_pos].eip = eip;
        cpu_buf->buffer[cpu_buf->head_pos].event = event;
        increment_head(cpu_buf);
}


/* Resets the cpu buffer to a sane state. */
void cpu_buffer_reset(struct oprofile_cpu_buffer * cpu_buf)
{
        /* reset these to invalid values; the next sample
         * collected will populate the buffer with proper
         * values to initialize the buffer
         */
        cpu_buf->last_is_kernel = -1;
        cpu_buf->last_task = NULL;
}


/*
 * This serves to avoid cpu buffer overflow, and makes sure
 * the task mortuary progresses
 *
 * By using schedule_delayed_work_on and then schedule_delayed_work
 * we guarantee this will stay on the correct cpu
 */
static void wq_sync_buffer(void * data)
{
        struct oprofile_cpu_buffer * b = (struct oprofile_cpu_buffer *)data;
        if (b->cpu != smp_processor_id()) {
                printk("WQ on CPU%d, prefer CPU%d\n",
                       smp_processor_id(), b->cpu);
        }
        sync_buffer(b->cpu);

        /* don't re-add the work if we're shutting down */
        if (work_enabled)
                schedule_delayed_work(&b->work, DEFAULT_TIMER_EXPIRE);
}